package wdpost import ( "context" "math" "os" "strconv" "github.com/ipfs/go-cid" "go.opencensus.io/trace" "golang.org/x/xerrors" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-bitfield" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/builtin" "github.com/filecoin-project/go-state-types/builtin/v8/miner" "github.com/filecoin-project/go-state-types/dline" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/actors" "github.com/filecoin-project/lotus/chain/types" ) var RecoveringSectorLimit uint64 = 0 func init() { if rcl := os.Getenv("LOTUS_RECOVERING_SECTOR_LIMIT"); rcl != "" { var err error RecoveringSectorLimit, err = strconv.ParseUint(rcl, 10, 64) if err != nil { log.Errorw("parsing LOTUS_RECOVERING_SECTOR_LIMIT", "error", err) } } } // declareRecoveries identifies sectors that were previously marked as faulty // for our miner, but are now recovered (i.e. are now provable again) and // still not reported as such. // // It then reports the recovery on chain via a `DeclareFaultsRecovered` // message to our miner actor. // // This is always invoked ahead of time, before the deadline for the evaluated // sectors arrives. That way, recoveries are declared in preparation for those // sectors to be proven. // // If a declaration is made, it awaits for build.MessageConfidence confirmations // on chain before returning. // // TODO: the waiting should happen in the background. Right now this // // is blocking/delaying the actual generation and submission of WindowPoSts in // this deadline! func (s *WindowPoStScheduler) declareRecoveries(ctx context.Context, dlIdx uint64, partitions []api.Partition, tsk types.TipSetKey) ([][]miner.RecoveryDeclaration, []*types.SignedMessage, error) { ctx, span := trace.StartSpan(ctx, "storage.declareRecoveries") defer span.End() faulty := uint64(0) var batchedRecoveryDecls [][]miner.RecoveryDeclaration batchedRecoveryDecls = append(batchedRecoveryDecls, []miner.RecoveryDeclaration{}) totalSectorsToRecover := uint64(0) for partIdx, partition := range partitions { unrecovered, err := bitfield.SubtractBitField(partition.FaultySectors, partition.RecoveringSectors) if err != nil { return nil, nil, xerrors.Errorf("subtracting recovered set from fault set: %w", err) } uc, err := unrecovered.Count() if err != nil { return nil, nil, xerrors.Errorf("counting unrecovered sectors: %w", err) } if uc == 0 { continue } faulty += uc recovered, err := s.checkSectors(ctx, unrecovered, tsk) if err != nil { return nil, nil, xerrors.Errorf("checking unrecovered sectors: %w", err) } // if all sectors failed to recover, don't declare recoveries recoveredCount, err := recovered.Count() if err != nil { return nil, nil, xerrors.Errorf("counting recovered sectors: %w", err) } if recoveredCount == 0 { continue } // rules to follow if we have indicated that we don't want to recover more than X sectors in a deadline if RecoveringSectorLimit > 0 { // something weird happened, break because we can't recover any more if RecoveringSectorLimit < totalSectorsToRecover { log.Warnf("accepted more recoveries (%d) than RecoveringSectorLimit (%d)", totalSectorsToRecover, RecoveringSectorLimit) break } maxNewRecoverable := RecoveringSectorLimit - totalSectorsToRecover // we need to trim the recover bitfield if recoveredCount > maxNewRecoverable { recoverySlice, err := recovered.All(math.MaxUint64) if err != nil { log.Errorw("failed to slice recovery bitfield, breaking out of recovery loop", err) break } log.Warnf("only adding %d sectors to respect RecoveringSectorLimit %d", maxNewRecoverable, RecoveringSectorLimit) recovered = bitfield.NewFromSet(recoverySlice[:maxNewRecoverable]) recoveredCount = maxNewRecoverable } } // respect user config if set if s.maxPartitionsPerRecoveryMessage > 0 && len(batchedRecoveryDecls[len(batchedRecoveryDecls)-1]) >= s.maxPartitionsPerRecoveryMessage { batchedRecoveryDecls = append(batchedRecoveryDecls, []miner.RecoveryDeclaration{}) } batchedRecoveryDecls[len(batchedRecoveryDecls)-1] = append(batchedRecoveryDecls[len(batchedRecoveryDecls)-1], miner.RecoveryDeclaration{ Deadline: dlIdx, Partition: uint64(partIdx), Sectors: recovered, }) totalSectorsToRecover += recoveredCount if RecoveringSectorLimit > 0 && totalSectorsToRecover >= RecoveringSectorLimit { log.Errorf("reached recovering sector limit %d, only marking %d sectors for recovery now", RecoveringSectorLimit, totalSectorsToRecover) break } } if totalSectorsToRecover == 0 { if faulty != 0 { log.Warnw("No recoveries to declare", "deadline", dlIdx, "faulty", faulty) } return nil, nil, nil } log.Infof("attempting recovery declarations for %d sectors", totalSectorsToRecover) var msgs []*types.SignedMessage for _, recovery := range batchedRecoveryDecls { params := &miner.DeclareFaultsRecoveredParams{ Recoveries: recovery, } enc, aerr := actors.SerializeParams(params) if aerr != nil { return nil, nil, xerrors.Errorf("could not serialize declare recoveries parameters: %w", aerr) } msg := &types.Message{ To: s.actor, Method: builtin.MethodsMiner.DeclareFaultsRecovered, Params: enc, Value: types.NewInt(0), } spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)} if err := s.prepareMessage(ctx, msg, spec); err != nil { return nil, nil, err } sm, err := s.api.MpoolPushMessage(ctx, msg, &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)}) if err != nil { return nil, nil, xerrors.Errorf("pushing message to mpool: %w", err) } log.Warnw("declare faults recovered Message CID", "cid", sm.Cid()) msgs = append(msgs, sm) } for _, msg := range msgs { rec, err := s.api.StateWaitMsg(context.TODO(), msg.Cid(), build.MessageConfidence, api.LookbackNoLimit, true) if err != nil { return batchedRecoveryDecls, msgs, xerrors.Errorf("declare faults recovered wait error: %w", err) } if rec.Receipt.ExitCode != 0 { return batchedRecoveryDecls, msgs, xerrors.Errorf("declare faults recovered wait non-0 exit code: %d", rec.Receipt.ExitCode) } } return batchedRecoveryDecls, msgs, nil } // declareFaults identifies the sectors on the specified proving deadline that // are faulty, and reports the faults on chain via the `DeclareFaults` message // to our miner actor. // // NOTE: THIS CODE ISN'T INVOKED AFTER THE IGNITION UPGRADE // This is always invoked ahead of time, before the deadline for the evaluated // sectors arrives. That way, faults are declared before a penalty is accrued. // // If a declaration is made, it awaits for build.MessageConfidence confirmations // on chain before returning. // // TODO: the waiting should happen in the background. Right now this // // is blocking/delaying the actual generation and submission of WindowPoSts in // this deadline! func (s *WindowPoStScheduler) declareFaults(ctx context.Context, dlIdx uint64, partitions []api.Partition, tsk types.TipSetKey) ([]miner.FaultDeclaration, *types.SignedMessage, error) { ctx, span := trace.StartSpan(ctx, "storage.declareFaults") defer span.End() bad := uint64(0) params := &miner.DeclareFaultsParams{ Faults: []miner.FaultDeclaration{}, } for partIdx, partition := range partitions { nonFaulty, err := bitfield.SubtractBitField(partition.LiveSectors, partition.FaultySectors) if err != nil { return nil, nil, xerrors.Errorf("determining non faulty sectors: %w", err) } good, err := s.checkSectors(ctx, nonFaulty, tsk) if err != nil { return nil, nil, xerrors.Errorf("checking sectors: %w", err) } newFaulty, err := bitfield.SubtractBitField(nonFaulty, good) if err != nil { return nil, nil, xerrors.Errorf("calculating faulty sector set: %w", err) } c, err := newFaulty.Count() if err != nil { return nil, nil, xerrors.Errorf("counting faulty sectors: %w", err) } if c == 0 { continue } bad += c params.Faults = append(params.Faults, miner.FaultDeclaration{ Deadline: dlIdx, Partition: uint64(partIdx), Sectors: newFaulty, }) } faults := params.Faults if len(faults) == 0 { return faults, nil, nil } log.Errorw("DETECTED FAULTY SECTORS, declaring faults", "count", bad) enc, aerr := actors.SerializeParams(params) if aerr != nil { return faults, nil, xerrors.Errorf("could not serialize declare faults parameters: %w", aerr) } msg := &types.Message{ To: s.actor, Method: builtin.MethodsMiner.DeclareFaults, Params: enc, Value: types.NewInt(0), // TODO: Is there a fee? } spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)} if err := s.prepareMessage(ctx, msg, spec); err != nil { return faults, nil, err } sm, err := s.api.MpoolPushMessage(ctx, msg, spec) if err != nil { return faults, sm, xerrors.Errorf("pushing message to mpool: %w", err) } log.Warnw("declare faults Message CID", "cid", sm.Cid()) rec, err := s.api.StateWaitMsg(context.TODO(), sm.Cid(), build.MessageConfidence, api.LookbackNoLimit, true) if err != nil { return faults, sm, xerrors.Errorf("declare faults wait error: %w", err) } if rec.Receipt.ExitCode != 0 { return faults, sm, xerrors.Errorf("declare faults wait non-0 exit code: %d", rec.Receipt.ExitCode) } return faults, sm, nil } func (s *WindowPoStScheduler) asyncFaultRecover(di dline.Info, ts *types.TipSet) { go func() { // check faults / recoveries for the *next* deadline. It's already too // late to declare them for this deadline declDeadline := (di.Index + 2) % di.WPoStPeriodDeadlines partitions, err := s.api.StateMinerPartitions(context.TODO(), s.actor, declDeadline, ts.Key()) if err != nil { log.Errorf("getting partitions: %v", err) return } var ( sigmsgs []*types.SignedMessage recoveries [][]miner.RecoveryDeclaration // optionalCid returns the CID of the message, or cid.Undef is the // message is nil. We don't need the argument (could capture the // pointer), but it's clearer and purer like that. optionalCid = func(sigmsg *types.SignedMessage) cid.Cid { if sigmsg == nil { return cid.Undef } return sigmsg.Cid() } ) if recoveries, sigmsgs, err = s.declareRecoveries(context.TODO(), declDeadline, partitions, ts.Key()); err != nil { // TODO: This is potentially quite bad, but not even trying to post when this fails is objectively worse log.Errorf("checking sector recoveries: %v", err) } // should always be true, skip journaling if not for some reason if len(recoveries) == len(sigmsgs) { for i, recovery := range recoveries { // clone for function literal recovery := recovery msgCID := optionalCid(sigmsgs[i]) s.journal.RecordEvent(s.evtTypes[evtTypeWdPoStRecoveries], func() interface{} { j := WdPoStRecoveriesProcessedEvt{ evtCommon: s.getEvtCommon(err), Declarations: recovery, MessageCID: msgCID, } j.Error = err return j }) } } }() } // declareRecoveries identifies sectors that were previously marked as faulty // for our miner, but are now recovered (i.e. are now provable again) and // still not reported as such. // // It then reports the recovery on chain via a `DeclareFaultsRecovered` // message to our miner actor. // // This is always invoked ahead of time, before the deadline for the evaluated // sectors arrives. That way, recoveries are declared in preparation for those // sectors to be proven. // // If a declaration is made, it awaits for build.MessageConfidence confirmations // on chain before returning. func (s *WindowPoStScheduler) declareManualRecoveries(ctx context.Context, maddr address.Address, sectors []abi.SectorNumber, tsk types.TipSetKey) ([]cid.Cid, error) { var RecoveryDecls []miner.RecoveryDeclaration var RecoveryBatches [][]miner.RecoveryDeclaration type ptx struct { deadline uint64 partition uint64 } smap := make(map[ptx][]uint64) var mcids []cid.Cid for _, sector := range sectors { ptxID, err := s.api.StateSectorPartition(ctx, maddr, sector, types.TipSetKey{}) if err != nil { return nil, xerrors.Errorf("failed to fetch partition and deadline details for sector %d: %w", sector, err) } ptxinfo := ptx{ deadline: ptxID.Deadline, partition: ptxID.Partition, } slist := smap[ptxinfo] sn := uint64(sector) slist = append(slist, sn) smap[ptxinfo] = slist } for i, v := range smap { sectorinbit := bitfield.NewFromSet(v) RecoveryDecls = append(RecoveryDecls, miner.RecoveryDeclaration{ Deadline: i.deadline, Partition: i.partition, Sectors: sectorinbit, }) } // Batch if maxPartitionsPerRecoveryMessage is set if s.maxPartitionsPerRecoveryMessage > 0 { // Create batched for len(RecoveryDecls) > s.maxPartitionsPerPostMessage { Batch := RecoveryDecls[len(RecoveryDecls)-s.maxPartitionsPerRecoveryMessage:] RecoveryDecls = RecoveryDecls[:len(RecoveryDecls)-s.maxPartitionsPerPostMessage] RecoveryBatches = append(RecoveryBatches, Batch) } // Add remaining as new batch RecoveryBatches = append(RecoveryBatches, RecoveryDecls) } else { RecoveryBatches = append(RecoveryBatches, RecoveryDecls) } for _, Batch := range RecoveryBatches { msg, err := s.manualRecoveryMsg(ctx, Batch) if err != nil { return nil, err } mcids = append(mcids, msg) } return mcids, nil } func (s *WindowPoStScheduler) manualRecoveryMsg(ctx context.Context, Recovery []miner.RecoveryDeclaration) (cid.Cid, error) { params := &miner.DeclareFaultsRecoveredParams{ Recoveries: Recovery, } enc, aerr := actors.SerializeParams(params) if aerr != nil { return cid.Undef, xerrors.Errorf("could not serialize declare recoveries parameters: %w", aerr) } msg := &types.Message{ To: s.actor, Method: builtin.MethodsMiner.DeclareFaultsRecovered, Params: enc, Value: types.NewInt(0), } spec := &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)} if err := s.prepareMessage(ctx, msg, spec); err != nil { return cid.Undef, err } sm, err := s.api.MpoolPushMessage(ctx, msg, &api.MessageSendSpec{MaxFee: abi.TokenAmount(s.feeCfg.MaxWindowPoStGasFee)}) if err != nil { return cid.Undef, xerrors.Errorf("pushing message to mpool: %w", err) } return sm.Cid(), nil }